Streptococcosis Humans and Animals

Streptococcosis Humans and Animals

Zoonotic Importance Members of the genus Streptococcus cause mild to severe bacterial illnesses in Streptococcosis humans and animals. These organisms typically colonize one or more species as commensals, and can cause opportunistic infections in those hosts. However, they are not completely host-specific, and some animal-associated streptococci can be found occasionally in humans. Many zoonotic cases are sporadic, but organisms such as S. Last Updated: September 2020 equi subsp. zooepidemicus or a fish-associated strain of S. agalactiae have caused outbreaks, and S. suis, which is normally carried in pigs, has emerged as a significant agent of streptoccoccal meningitis, septicemia, toxic shock-like syndrome and other human illnesses, especially in parts of Asia. Streptococci with human reservoirs, such as S. pyogenes or S. pneumoniae, can likewise be transmitted occasionally to animals. These reverse zoonoses may cause human illness if an infected animal, such as a cow with an udder colonized by S. pyogenes, transmits the organism back to people. Occasionally, their presence in an animal may interfere with control efforts directed at humans. For instance, recurrent streptococcal pharyngitis in one family was cured only when the family dog, which was also colonized asymptomatically with S. pyogenes, was treated concurrently with all family members. Etiology There are several dozen recognized species in the genus Streptococcus, Gram positive cocci in the family Streptococcaceae. Almost all species of mammals and birds, as well as many poikilotherms, carry one or more species as commensals on skin or mucosa. These organisms can act as facultative pathogens, often in the carrier. Nomenclature and identification of streptococci Hemolytic reactions on blood agar and Lancefield groups are useful in distinguishing members of the genus Streptococcus. In clinical laboratories, an isolate may be reported only to this level (e.g., ‘group C streptococcus’), without identifying its species. Many acute streptococcal diseases are caused by beta-hemolytic streptococci, which completely lyse the red blood cells surrounding the colony. Alpha-hemolytic organisms cause a partial or “greening” hemolysis, associated with the reduction of red cell hemoglobin. A third group is not hemolytic, a characteristic sometimes termed gamma-hemolysis. Because it is often of little value to distinguish alpha-hemolysis from gamma- hemolysis, the latter two groups may simply be called non-beta-hemolytic. Lancefield grouping is based on the serological identification of cell wall antigens and, in group B streptococci, capsular antigens. The 20 Lancefield serogroups are identified with the letters A to H and K to V. Some species of Streptococcus have no traditional Lancefield group antigens. Each Lancefield group can contain more than one streptococcal species, and the members of some species can belong to more than one Lancefield group. However, sometimes a single pathogenic species predominates in a Lancefield group, which has become nearly synonymous with that organism. For instance, S. pyogenes is, by far, the most common beta-hemolytic group A streptococcus in humans, and ‘group A streptococcus’ generally indicates this organism. Likewise, group B streptococcus is often used as a synonym for S. agalactiae in people or animals, though there are minor beta-hemolytic group B streptococci, such as S. troglodytidis. Zoonotic species of Streptococcus Most streptococcal illnesses in people are caused by species normally maintained in humans, such as S. pneumoniae, S. pyogenes or human-adapted strains of S. agalactiae. As of 2020, zoonotic streptococci documented in people include S. canis (Lancefield group G; beta-hemolytic), S. dysgalactiae subsp. dysgalactiae (Lancefield groups C and L; alpha-hemolytic, beta-hemolytic or nonhemolytic), S. equi subsp. zooepidemicus (Lancefield group C; beta-hemolytic), S. halichoeri (Lancefield group B; non-hemolytic), S. iniae (no Lancefield group antigens; beta-hemolytic), S. suis (Lancefield group D-related; non-beta-hemolytic) and some animal-associated genotypes of S. agalactiae (Lancefield group B; mostly beta-hemolytic). Other organisms have also been proposed as zoonotic (e.g., S. porcinus, animal-adapted www.cfsph.iastate.edu Email: [email protected] © 2005-2020 page 1 of 12 Streptococcosis S. gallolyticus subsp. gallolyticus), and it is possible that goats, pigs, South American camelids, dogs and other many animal streptococci might be able to infect humans canids, cats and other felids, ferrets, guinea pigs, non- under some circumstances. human primates, seals and birds. S. suis has at least 35 serotypes. A limited number of Streptococcus halichoeri serotypes, such as 2, 3, 7 and 9, seem to cause most S. halichoeri seems to mostly occur in marine illnesses in pigs. Serotype 2 is found most often in human environments. It was originally found in grey seals cases, but other organisms, including serotypes 5 and 14, (Halichoerus grypus) but it has been isolated from other have also been isolated. Certain genetically divergent S. marine mammals (e.g., a Steller sea lion, Eumetopias suis isolates are referred to as S. suis-like, and new names jubatus) and fish (herring). Reports from terrestrial species (S. orisratti, S. parasuis, S. ruminantium) have been include cases in a European badger (Meles meles) and dogs. proposed for some of them. This organism infected captive mink (Neovison vison), blue Reverse Zoonoses foxes (Vulpes lagopus) and raccoon dogs (Nyctereutes Organisms maintained in people, including S. procyonoides) during an outbreak that might have originated pyogenes, S. pneumoniae and human-adapted genotypes of from fish in their diet. The source of the organism for other S. agalactiae, are isolated occasionally from asymptomatic terrestrial hosts is uncertain. or sick animals (reverse zoonoses). They can be transmitted Streptococcus iniae back to people from this source, and can sometimes spread S. iniae mainly seems to be a fish pathogen. Infections between animals. have been reported in more than 20 species of wild and Species Affected farmed fish including rainbow trout (Oncorhynchus mykiss), coho salmon (O. kisutch), tilapia (Oreochromis spp.), Streptococcus agalactiae yellowtail (Seriola quinqueradiata), red drum (Sciaenops Cattle are important reservoir hosts for S. agalactiae. occellatus), bass and European seabream; however, some This organism is also common in dromedary camels. There species including common carp (Cyprinus carpus), Channel are reports of S. agalactiae or group B streptococcus in catfish (Ictalurus punctatus) and goldfish (Carassius auratus) many other species such as small ruminants, llamas, horses, seem to be resistant. pigs, dogs, cats, rabbits, rodents (including guinea pigs), S. iniae has also caused clinical cases in captive marine mammals (dolphins, seals), fish, reptiles (crocodiles, Amazon freshwater dolphins (Inia geoffrensis) and a snakes, emerald monitors) and frogs. Some organisms, captive bottlenose dolphin (Tursiops truncatus). It was including those in sick crocodiles and farmed frogs, were found in a group of sick bullfrogs (Rana castesbeiana) that thought to have come from humans. suffered from recurrent bacterial infections, as well as in Fish-associated S. agalactiae are most often reported in fruit bats (Pteropus alecto). Experimental infections were farmed freshwater and marine fish, but they have been established in laboratory mice. found in free-living fish. Some of these organisms might Streptococcus suis come from people. The ST283 genotype of S. agalactiae, which has repeatedly caused human illnesses, seems to be S. suis is mainly a pathogen of suids, and is maintained maintained in fish. However, its reservoir has not yet been in both domestic pigs and wild boar. It has been isolated definitely identified, and it is possible that this organism is occasionally from other species such as cattle, sheep, goats, transferred from humans to fish (e.g., in sewage), or that bison, cats, dogs and horses, and appears to be common in another source is the actual reservoir. some groups of wild rabbits (Oryctolagus cuniculus) in Europe and chickens in Vietnam. Rabbits and chickens Streptococcus canis seem to carry different S. suis genotypes than pigs. S. canis is usually found in dogs and cats, but it has been detected occasionally in other animals including cattle, Geographic Distribution horses, mink, foxes, rodents and rabbits. The organisms maintained in domestic animals - S. canis, S. dysgalactiae subsp. dysgalactiae, S. equi subsp. Streptococcus dysgalactiae subsp. dysgalactiae zooepidemicus, S. suis and mammalian S. agalactiae - are S. dysgalactiae subsp. dysgalactiae is most common in widespread and probably exist wherever their usual hosts cattle, but it can also infect small ruminants, pigs, dogs, can be found. The predominant serotypes of S. suis differ horses, vampire bats (Desmodus rotundus) and other hosts. between regions, which may influence the incidence of Streptococcus equi subsp. zooepidemicus disease in pigs and humans. S. equi subsp. zooepidemicus is a common commensal S. iniae has, to date, mainly been reported in North and opportunistic pathogen in horses. Guinea pigs, pigs and America, the Caribbean, parts of Asia (e.g., Japan, China, monkeys also seem to be carriers, and it has been isolated Singapore, Taiwan), Australia and the Middle East. S. from many other species including horses, cattle, sheep, halichoeri has been documented in parts of

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